26Al-10Be systematics in deep-sea sediments

Lei Wang, T. L. Ku, S. Luo, J. R. Southon, M. Kusakabe

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We report the development of a NaOH-leaching technique to extract the authigenic Al and Be in marine sediments, which should allow the sedimentary signals of cosmogenic 26Al and 10Be to be more effectively studied as geochemical/geophysical tracers. The technique has been applied to the study of 26Al and 10Be in opal-rich sediments from the North Pacific. The 26Al/27Al and 10Be/9Be ratios of ∼3 × 10-14 and 1 × 10-7 leached from the sediments are higher than those in the total sediments by factors of 3-10 and 2-3, respectively. The authigenic 10Be/9Be ratios are similar to those in deep waters at the study site, pointing to the potential usefulness of the ratios in paleoceanographic studies. The fractions of total Be and Al in the sediment studied that are of authigenic origin average about 40 and 17%, respectively. Estimated 26Al/27Al ratios in detrital sediments are ≤ 10-15, low enough to indicate that the source of 26Al in the ocean mainly comes from atmospheric production. In the study area, the deposition flux of 26Al is comparable to its atmospheric supply. However, the deposition flux of 10Be is about threefold higher than the atmospheric input, signifying lateral transport of 10Be from the open ocean to this area of relatively high particle flux. The 26Al/10Be ratio, being insensitive to the oceanic influx of lithogenic particles, may serve as a valuable proxy for paleoproductivity. Both the authigenic and total-sediment 26Al/27Al and 10Be/ 9Be ratios decreased significantly at ∼6 ka, which could reflect an enhanced input of windblown lithogenic particles to the North Pacific. While the enhanced dust input did not significantly alter the deep-water 9Be concentration, it contributed to the observed increase of authigenic 9Be flux to the sediment.

Original languageEnglish
Pages (from-to)109-119
Number of pages11
JournalGeochimica et Cosmochimica Acta
Issue number1
Publication statusPublished - 1996 Jan

All Science Journal Classification (ASJC) codes

  • Geochemistry and Petrology


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